Aviation spare parts supply chain optimization

They get many awards for his or her functional efficiency and it has contributed too much to their success. Behind all this success there are numerous tedious jobs of aircraft maintenance, fixes and services. Each and every airline requires normal maintenance to ensure functional smoothness and safety.

Aviation spare parts supply chain optimization

Hamburg is home to one of the major Airbus sites as well as several suppliers, and also serves as an important international logistics Aviation spare parts supply chain optimization, which makes the city one of the natural choices when it comes to hosting a conference for the aerospace industry.

With more than attendees and many industry-renowned speakers, the Aviation Forum is the perfect event for networking with supply chain professionals and getting valuable insights regarding the future of the aerospace supply chain.

Since it is one of the major trends of our time, digitization served as the guiding theme that ran like a thread through almost every presentation, workshop, panel discussion and conversation on the exhibition floor. While this suggests a digital future for the aerospace supply chain in general, the coming years will show some more specific trends emerging that also, more or less, have to do with digitization.

I want to highlight three particular topics that I found to be quite interesting at the conference: Integration of suppliers, 3D Printing and Agile Optimization. Defining new relationships with suppliers From the perspective of OEMs such as Airbus, Boeing or Bombardier, the distribution of responsibility regarding development and manufacturing of aircrafts was very one-sided not so long ago.

OEMs were responsible for most of the work and had to manage a very high number of suppliers on their own.

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Today, most new aircraft programs are developed with the help of a relatively small number of major Tier 1 suppliers. For instance, Airbus relies on a global network of about 7, suppliers in total, while directly dealing with only about major Tier 1 suppliers.

Because the manufactured products are so complex, the OEMs now heavily rely on these suppliers, which calls for a new way of engagement with them.

Thus, a two-way-integration is key. This is supported by an elaborate supplier governance process. According to Buchholz, it is also necessary to have a high level of transparency between OEM and Tier 1 supplier.

This means, for example, that the OEM needs to make its financial goals clear to its partners, while on the other hand obtain detailed insights into the maturity process of supplier products.

This was one thesis at a panel discussion which I attended on the first day of the conference. Since all members of the panel discussion were providers of 3D printing technology or active users in the aerospace industry, their outlook was very optimistic.

Gerd Weber from Premium Aerotec boiled this down to a short statement: Parts can become smaller, lighter or more pressure-resistant. The future potential is huge. Also, the general way in which new products are developed will change dramatically from slow incremental design to out-of-the-box thinking.

Bart van der Scheuren from Materialise pointed out that this does not necessarily mean that the training of engineers needs a radical pivot, but that the providers of software design tools need to make their products as user-friendly as possible. Since the panel discussion included answering questions from the audience, critical perspectives on the technology were also evaluated.

For example, the question about quality issues divided the panel into two opposing groups.

Aviation spare parts supply chain optimization

One group thought that quality control might be a major obstacle for 3D printing of flight-critical parts, and thus manufacturers will start with the non-critical ones. The other group was of the opinion that the assessment of quality is not different to traditionally manufactured parts and the concerns about safety are founded in the usual fear of new technologies that can have a disruptive effect.

Agile Optimization But disruptions do not always have a positive effect on the supply chain. Since major business challenges of our time, such as individualization, connectivity, acceleration and volatility spawn an increasing number of these micro-disruptions, companies need to find the right answer to be compatible.

The concept of Agile Optimization offers an IT-supported solution, especially if a business-critical process involves high complexity like manufacturing aircraft turbines and high unpredictability e. This way, companies keep operations reliable and efficient despite growing business challenges.

Parts & Supply Chain | AAR Corporate

Weiler stressed that this does not mean that algorithms will replace production planners or supply chain managers in the future. With Agile Optimization Systems, users still keep ultimate control at all times, since domain expertise cannot be fully mapped to bits and bytes.

In the end, in a disruptive event, an optimal decision can and should only be made by an experienced professional. Weiler gave several examples of Agile Optimization application.

In make-to-order manufacturing, the workload for a single product can reach over 1 million individual tasks with many inter-dependencies.

Aviation spare parts supply chain optimization

If disruptions occur, Agile Optimization systems are able to re-schedule the vast amount of tasks within a night, in order to start the next day with an optimized plan and stay on schedule for on-time delivery.

Another example Weiler gave was inventory management, which is a very important issue in aviation — whether it is spare parts used in MRO operations or purchased parts at manufacturers.

With the help of Agile Optimization systems companies are able to make themselves more resilient against disruptions like stock-outs or ad-hoc orders, thus boosting service levels while reducing total inventory.

Aviation Spare Parts

Final Thoughts It is safe to say that most attendees deemed this conference to be very successful — whether regarding the new perspectives they gained on the aerospace supply chain or the new contacts they made. I am certainly looking forward to coming back next year. Share this blog post:Aviation Spare Parts Supply Chain Management Optimisation at Cathay Pacific Airways Limited Case Solution, management of aviation parts supply chain is characterized by pieces strict regulation, and tight delivery times, and a lot of expensive parts.

Management. Build an Informed Aviation Supply Chain This white paper from Aviation Week explores how aerospace organizations from Qantas Airlines to the U.S.

Air Force are using commercial off-the-shelf spare parts optimization tools to turn data from MROs, ERPs, and other systems into actionable information, leading to.

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Supply chain management of aviation spare parts is characterised by stringent regulations, tight turnaround and lead time, large numbers and expensive parts. Managing spare parts in the aviation industry, thus, has always been a challenge for all airline operators, and Cathay Pacific is no exception.

Cathay Pacific Airways Limited is a very profitable airline and has its business all over the world. They receive many awards for their oper. Parts & Supply Chain Whatever you need, whenever you need it. From individual spare parts to comprehensive end-to-end supply chain management programs, AAR provides total logistical solutions marked by highly personalized service, fast turnaround times and solid performance guarantees.

We add best-of-breed solutions based on Operations Research, Fuzzy Logic and other optimization technology to your existing IT systems. Aviation | INFORM GmbH A-Z.

Aviation Spare Part Supply Chain Manage Optimization at Cath by fahad ahmad on Prezi